GithubHelp home page GithubHelp logo

rlugojr / chess.js Goto Github PK

View Code? Open in Web Editor NEW

This project forked from jhlywa/chess.js

0.0 2.0 0.0 402 KB

A Javascript chess library for chess move generation/validation, piece placement/movement, and check/checkmate/draw detection

License: BSD 2-Clause "Simplified" License

JavaScript 100.00%

chess.js's Introduction

chess.js

Build Status

chess.js is a Javascript chess library that is used for chess move generation/validation, piece placement/movement, and check/checkmate/stalemate detection - basically everything but the AI.

chess.js has been extensively tested in node.js and most modern browsers.

Installation

To install the stable version:

npm install --save chess.js

chess.js is also available via CDNJS:

<script src="https://cdnjs.cloudflare.com/ajax/libs/chess.js/0.10.2/chess.js"></script>

Example Code

The code below plays a complete game of chess ... randomly.

var Chess = require('./chess').Chess;
var chess = new Chess();

while (!chess.game_over()) {
  var moves = chess.moves();
  var move = moves[Math.floor(Math.random() * moves.length)];
  chess.move(move);
}
console.log(chess.pgn());

Sites Using chess.js

Need a user interface? Try Chris Oakman's excellent chessboard.js library. See chessboard.js - Random vs Random for an example integration of chess.js with chessboard.js.

API

Constructor: Chess([ fen ])

The Chess() constructor takes an optional parameter which specifies the board configuration in Forsyth-Edwards Notation.

// board defaults to the starting position when called with no parameters
var chess = new Chess();

// pass in a FEN string to load a particular position
var chess = new Chess('r1k4r/p2nb1p1/2b4p/1p1n1p2/2PP4/3Q1NB1/1P3PPP/R5K1 b - c3 0 19');

.ascii()

Returns a string containing an ASCII diagram of the current position.

var chess = new Chess();

// make some moves
chess.move('e4');
chess.move('e5');
chess.move('f4');

chess.ascii();
// -> '   +------------------------+
//      8 | r  n  b  q  k  b  n  r |
//      7 | p  p  p  p  .  p  p  p |
//      6 | .  .  .  .  .  .  .  . |
//      5 | .  .  .  .  p  .  .  . |
//      4 | .  .  .  .  P  P  .  . |
//      3 | .  .  .  .  .  .  .  . |
//      2 | P  P  P  P  .  .  P  P |
//      1 | R  N  B  Q  K  B  N  R |
//        +------------------------+
//          a  b  c  d  e  f  g  h'

.board()

Returns an 2D array representation of the current position. Empty squares are represented by null.

var chess = new Chess();

chess.board();
// -> [[{type: 'r', color: 'b'},
        {type: 'n', color: 'b'},
        {type: 'b', color: 'b'},
        {type: 'q', color: 'b'},
        {type: 'k', color: 'b'},
        {type: 'b', color: 'b'},
        {type: 'n', color: 'b'},
        {type: 'r', color: 'b'}],
        [...],
        [...],
        [...],
        [...],
        [...],
        [{type: 'r', color: 'w'},
         {type: 'n', color: 'w'},
         {type: 'b', color: 'w'},
         {type: 'q', color: 'w'},
         {type: 'k', color: 'w'},
         {type: 'b', color: 'w'},
         {type: 'n', color: 'w'},
         {type: 'r', color: 'w'}]]

.clear()

Clears the board.

chess.clear();
chess.fen();
// -> '8/8/8/8/8/8/8/8 w - - 0 1' <- empty board

.fen()

Returns the FEN string for the current position.

var chess = new Chess();

// make some moves
chess.move('e4');
chess.move('e5');
chess.move('f4');

chess.fen();
// -> 'rnbqkbnr/pppp1ppp/8/4p3/4PP2/8/PPPP2PP/RNBQKBNR b KQkq f3 0 2'

.game_over()

Returns true if the game has ended via checkmate, stalemate, draw, threefold repetition, or insufficient material. Otherwise, returns false.

var chess = new Chess();
chess.game_over();
// -> false

chess.load('4k3/4P3/4K3/8/8/8/8/8 b - - 0 78');
chess.game_over();
// -> true (stalemate)

chess.load('rnb1kbnr/pppp1ppp/8/4p3/5PPq/8/PPPPP2P/RNBQKBNR w KQkq - 1 3');
chess.game_over();
// -> true (checkmate)

.get(square)

Returns the piece on the square:

chess.clear();
chess.put({ type: chess.PAWN, color: chess.BLACK }, 'a5') // put a black pawn on a5

chess.get('a5');
// -> { type: 'p', color: 'b' },
chess.get('a6');
// -> null

.history([ options ])

Returns a list containing the moves of the current game. Options is an optional parameter which may contain a 'verbose' flag. See .moves() for a description of the verbose move fields.

var chess = new Chess();
chess.move('e4');
chess.move('e5');
chess.move('f4');
chess.move('exf4');

chess.history();
// -> ['e4', 'e5', 'f4', 'exf4']

chess.history({ verbose: true });
// -> [{ color: 'w', from: 'e2', to: 'e4', flags: 'b', piece: 'p', san: 'e4' },
//     { color: 'b', from: 'e7', to: 'e5', flags: 'b', piece: 'p', san: 'e5' },
//     { color: 'w', from: 'f2', to: 'f4', flags: 'b', piece: 'p', san: 'f4' },
//     { color: 'b', from: 'e5', to: 'f4', flags: 'c', piece: 'p', captured: 'p', san: 'exf4' }]

.in_check()

Returns true or false if the side to move is in check.

var chess = new Chess('rnb1kbnr/pppp1ppp/8/4p3/5PPq/8/PPPPP2P/RNBQKBNR w KQkq - 1 3');
chess.in_check();
// -> true

.in_checkmate()

Returns true or false if the side to move has been checkmated.

var chess = new Chess('rnb1kbnr/pppp1ppp/8/4p3/5PPq/8/PPPPP2P/RNBQKBNR w KQkq - 1 3');
chess.in_checkmate();
// -> true

.in_draw()

Returns true or false if the game is drawn (50-move rule or insufficient material).

var chess = new Chess('4k3/4P3/4K3/8/8/8/8/8 b - - 0 78');
chess.in_draw();
// -> true

.in_stalemate()

Returns true or false if the side to move has been stalemated.

var chess = new Chess('4k3/4P3/4K3/8/8/8/8/8 b - - 0 78');
chess.in_stalemate();
// -> true

.in_threefold_repetition()

Returns true or false if the current board position has occurred three or more times.

var chess = new Chess('rnbqkbnr/pppppppp/8/8/8/8/PPPPPPPP/RNBQKBNR w KQkq - 0 1');
// -> true
// rnbqkbnr/pppppppp/8/8/8/8/PPPPPPPP/RNBQKBNR w KQkq occurs 1st time
chess.in_threefold_repetition();
// -> false

chess.move('Nf3'); chess.move('Nf6'); chess.move('Ng1'); chess.move('Ng8');
// rnbqkbnr/pppppppp/8/8/8/8/PPPPPPPP/RNBQKBNR w KQkq occurs 2nd time
chess.in_threefold_repetition();
// -> false

chess.move('Nf3'); chess.move('Nf6'); chess.move('Ng1'); chess.move('Ng8');
// rnbqkbnr/pppppppp/8/8/8/8/PPPPPPPP/RNBQKBNR w KQkq occurs 3rd time
chess.in_threefold_repetition();
// -> true

.header()

Allows header information to be added to PGN output. Any number of key/value pairs can be passed to .header().

chess.header('White', 'Robert James Fischer');
chess.header('Black', 'Mikhail Tal');

// or

chess.header('White', 'Morphy', 'Black', 'Anderssen', 'Date', '1858-??-??');

Calling .header() without any arguments returns the header information as an object.

chess.header();
// -> { White: 'Morphy', Black: 'Anderssen', Date: '1858-??-??' }

.insufficient_material()

Returns true if the game is drawn due to insufficient material (K vs. K, K vs. KB, or K vs. KN); otherwise false.

var chess = new Chess('k7/8/n7/8/8/8/8/7K b - - 0 1');
chess.insufficient_material()
// -> true

.load(fen)

The board is cleared, and the FEN string is loaded. Returns true if the position was successfully loaded, otherwise false.

var chess = new Chess();
chess.load('4r3/8/2p2PPk/1p6/pP2p1R1/P1B5/2P2K2/3r4 w - - 1 45');
// -> true

chess.load('4r3/8/X12XPk/1p6/pP2p1R1/P1B5/2P2K2/3r4 w - - 1 45');
// -> false, bad piece X

.load_pgn(pgn, [ options ])

Load the moves of a game stored in Portable Game Notation. pgn should be a string. Options is an optional object which may contain a string newline_char and a boolean sloppy.

The newline_char is a string representation of a valid RegExp fragment and is used to process the PGN. It defaults to \r?\n. Special characters should not be pre-escaped, but any literal special characters should be escaped as is normal for a RegExp. Keep in mind that backslashes in JavaScript strings must themselves be escaped (see sloppy_pgn example below). Avoid using a newline_char that may occur elsewhere in a PGN, such as . or x, as this will result in unexpected behavior.

The sloppy flag is a boolean that permits chess.js to parse moves in non-standard notations. See .move documentation for more information about non-SAN notations.

The method will return true if the PGN was parsed successfully, otherwise false.

var chess = new Chess();
pgn = ['[Event "Casual Game"]',
       '[Site "Berlin GER"]',
       '[Date "1852.??.??"]',
       '[EventDate "?"]',
       '[Round "?"]',
       '[Result "1-0"]',
       '[White "Adolf Anderssen"]',
       '[Black "Jean Dufresne"]',
       '[ECO "C52"]',
       '[WhiteElo "?"]',
       '[BlackElo "?"]',
       '[PlyCount "47"]',
       '',
       '1.e4 e5 2.Nf3 Nc6 3.Bc4 Bc5 4.b4 Bxb4 5.c3 Ba5 6.d4 exd4 7.O-O',
       'd3 8.Qb3 Qf6 9.e5 Qg6 10.Re1 Nge7 11.Ba3 b5 12.Qxb5 Rb8 13.Qa4',
       'Bb6 14.Nbd2 Bb7 15.Ne4 Qf5 16.Bxd3 Qh5 17.Nf6+ gxf6 18.exf6',
       'Rg8 19.Rad1 Qxf3 20.Rxe7+ Nxe7 21.Qxd7+ Kxd7 22.Bf5+ Ke8',
       '23.Bd7+ Kf8 24.Bxe7# 1-0'];

chess.load_pgn(pgn.join('\n'));
// -> true

chess.fen();
// -> 1r3kr1/pbpBBp1p/1b3P2/8/8/2P2q2/P4PPP/3R2K1 b - - 0 24

chess.ascii();
// -> '  +------------------------+
//     8 | .  r  .  .  .  k  r  . |
//     7 | p  b  p  B  B  p  .  p |
//     6 | .  b  .  .  .  P  .  . |
//     5 | .  .  .  .  .  .  .  . |
//     4 | .  .  .  .  .  .  .  . |
//     3 | .  .  P  .  .  q  .  . |
//     2 | P  .  .  .  .  P  P  P |
//     1 | .  .  .  R  .  .  K  . |
//       +------------------------+
//         a  b  c  d  e  f  g  h'


// Parse non-standard move formats and unusual line separators
var sloppy_pgn = ['[Event "Wijk aan Zee (Netherlands)"]',
  '[Date "1971.01.26"]',
  '[Result "1-0"]',
  '[White "Tigran Vartanovich Petrosian"]',
  '[Black "Hans Ree"]',
  '[ECO "A29"]',
  '',
  '1. Pc2c4 Pe7e5', // non-standard
  '2. Nc3 Nf6',
  '3. Nf3 Nc6',
  '4. g2g3 Bb4',    // non-standard
  '5. Nd5 Nxd5',
  '6. c4xd5 e5-e4', // non-standard
  '7. dxc6 exf3',
  '8. Qb3 1-0'
].join('|');

var options = {
  newline_char: '\\|', // Literal '|' character escaped
  sloppy: true
};

chess.load_pgn(sloppy_pgn);
// -> false

chess.load_pgn(sloppy_pgn, options);
// -> true

chess.fen();
// -> 'r1bqk2r/pppp1ppp/2P5/8/1b6/1Q3pP1/PP1PPP1P/R1B1KB1R b KQkq - 1 8'

.move(move, [ options ])

Attempts to make a move on the board, returning a move object if the move was legal, otherwise null. The .move function can be called two ways, by passing a string in Standard Algebraic Notation (SAN):

var chess = new Chess();

chess.move('e4')
// -> { color: 'w', from: 'e2', to: 'e4', flags: 'b', piece: 'p', san: 'e4' }

chess.move('nf6') // SAN is case sensitive!!
// -> null

chess.move('Nf6')
// -> { color: 'b', from: 'g8', to: 'f6', flags: 'n', piece: 'n', san: 'Nf6' }

Or by passing .move() a move object (only the 'to', 'from', and when necessary 'promotion', fields are needed):

var chess = new Chess();

chess.move({ from: 'g2', to: 'g3' });
// -> { color: 'w', from: 'g2', to: 'g3', flags: 'n', piece: 'p', san: 'g3' }

An optional sloppy flag can be used to parse a variety of non-standard move notations:

var chess = new Chess();

// various forms of Long Algebraic Notation
chess.move('e2e4', {sloppy: true});
// -> { color: 'w', from: 'e2', to: 'e4', flags: 'b', piece: 'p', san: 'e4' }
chess.move('e7-e5', {sloppy: true});
// -> { color: 'b', from: 'e7', to: 'e5', flags: 'b', piece: 'p', san: 'e5' }
chess.move('Pf2f4', {sloppy: true});
// -> { color: 'w', from: 'f2', to: 'f4', flags: 'b', piece: 'p', san: 'f4' }
chess.move('Pe5xf4', {sloppy: true});
// -> { color: 'b', from: 'e5', to: 'f4', flags: 'c', piece: 'p', captured: 'p', san: 'exf4' }


// correctly parses incorrectly disambiguated moves
chess = new Chess('r2qkbnr/ppp2ppp/2n5/1B2pQ2/4P3/8/PPP2PPP/RNB1K2R b KQkq - 3 7');

chess.move('Nge7');  // Ne7 is unambiguous because the knight on c6 is pinned
// -> null

chess.move('Nge7', {sloppy: true});
// -> { color: 'b', from: 'g8', to: 'e7', flags: 'n', piece: 'n', san: 'Ne7' }

.moves([ options ])

Returns a list of legal moves from the current position. The function takes an optional parameter which controls the single-square move generation and verbosity.

var chess = new Chess();
chess.moves();
// -> ['a3', 'a4', 'b3', 'b4', 'c3', 'c4', 'd3', 'd4', 'e3', 'e4',
//     'f3', 'f4', 'g3', 'g4', 'h3', 'h4', 'Na3', 'Nc3', 'Nf3', 'Nh3']

chess.moves({square: 'e2'});
// -> ['e3', 'e4']

chess.moves({square: 'e9'}); // invalid square
// -> []

chess.moves({ verbose: true });
// -> [{ color: 'w', from: 'a2', to: 'a3',
//       flags: 'n', piece: 'p', san 'a3'
//       # a captured: key is included when the move is a capture
//       # a promotion: key is included when the move is a promotion
//     },
//     ...
//     ]

The piece, captured, and promotion fields contain the lowercase representation of the applicable piece.

The flags field in verbose mode may contain one or more of the following values:

  • 'n' - a non-capture
  • 'b' - a pawn push of two squares
  • 'e' - an en passant capture
  • 'c' - a standard capture
  • 'p' - a promotion
  • 'k' - kingside castling
  • 'q' - queenside castling

A flag of 'pc' would mean that a pawn captured a piece on the 8th rank and promoted.

.pgn([ options ])

Returns the game in PGN format. Options is an optional parameter which may include max width and/or a newline character settings.

var chess = new Chess();
chess.header('White', 'Plunky', 'Black', 'Plinkie');
chess.move('e4');
chess.move('e5');
chess.move('Nc3');
chess.move('Nc6');

chess.pgn({ max_width: 5, newline_char: '<br />' });
// -> '[White "Plunky"]<br />[Black "Plinkie"]<br /><br />1. e4 e5<br />2. Nc3 Nc6'

.put(piece, square)

Place a piece on the square where piece is an object with the form { type: ..., color: ... }. Returns true if the piece was successfully placed, otherwise, the board remains unchanged and false is returned. put() will fail when passed an invalid piece or square, or when two or more kings of the same color are placed.

chess.clear();

chess.put({ type: chess.PAWN, color: chess.BLACK }, 'a5') // put a black pawn on a5
// -> true
chess.put({ type: 'k', color: 'w' }, 'h1') // shorthand
// -> true

chess.fen();
// -> '8/8/8/p7/8/8/8/7K w - - 0 0'

chess.put({ type: 'z', color: 'w' }, 'a1') // invalid piece
// -> false

chess.clear();

chess.put({ type: 'k', color: 'w' }, 'a1')
// -> true

chess.put({ type: 'k', color: 'w' }, 'h1') // fail - two kings
// -> false

.remove(square)

Remove and return the piece on square.

chess.clear();
chess.put({ type: chess.PAWN, color: chess.BLACK }, 'a5') // put a black pawn on a5
chess.put({ type: chess.KING, color: chess.WHITE }, 'h1') // put a white king on h1

chess.remove('a5');
// -> { type: 'p', color: 'b' },
chess.remove('h1');
// -> { type: 'k', color: 'w' },
chess.remove('e1');
// -> null

.reset()

Reset the board to the initial starting position.

.square_color(square)

Returns the color of the square ('light' or 'dark').

var chess = Chess();
chess.square_color('h1')
// -> 'light'
chess.square_color('a7')
// -> 'dark'
chess.square_color('bogus square')
// -> null

.turn()

Returns the current side to move.

chess.load('rnbqkbnr/pppppppp/8/8/4P3/8/PPPP1PPP/RNBQKBNR b KQkq e3 0 1')
chess.turn()
// -> 'b'

.undo()

Takeback the last half-move, returning a move object if successful, otherwise null.

var chess = new Chess();

chess.fen();
// -> 'rnbqkbnr/pppppppp/8/8/8/8/PPPPPPPP/RNBQKBNR w KQkq - 0 1'
chess.move('e4');
chess.fen();
// -> 'rnbqkbnr/pppppppp/8/8/4P3/8/PPPP1PPP/RNBQKBNR b KQkq e3 0 1'

chess.undo();
// -> { color: 'w', from: 'e2', to: 'e4', flags: 'b', piece: 'p', san: 'e4' }
chess.fen();
// -> 'rnbqkbnr/pppppppp/8/8/8/8/PPPPPPPP/RNBQKBNR w KQkq - 0 1'
chess.undo();
// -> null

.validate_fen(fen):

Returns a validation object specifying validity or the errors found within the FEN string.

chess.validate_fen('2n1r3/p1k2pp1/B1p3b1/P7/5bP1/2N1B3/1P2KP2/2R5 b - - 4 25');
// -> { valid: true, error_number: 0, error: 'No errors.' }

chess.validate_fen('4r3/8/X12XPk/1p6/pP2p1R1/P1B5/2P2K2/3r4 w - - 1 45');
// -> { valid: false, error_number: 9,
//     error: '1st field (piece positions) is invalid [invalid piece].' }

MUSIC

Musical support provided by:

BUGS

  • The en passant square and castling flags aren't adjusted when using the put/remove functions (workaround: use .load() instead)

TODO

  • Investigate the use of piece lists (this may shave a few cycles off generate_moves() and attacked()).
  • Refactor API to use camelCase - yuck.
  • Add more robust FEN validation.

chess.js's People

Contributors

jhlywa avatar linrock avatar sebv avatar 2sb18 avatar jzacsh avatar davidmpaz avatar moroshko avatar imor avatar algotrader avatar allonhadaya avatar azer avatar blakmatrix avatar techbos avatar matforsberg avatar geary avatar ngocdaothanh avatar svangordon avatar toffer avatar simplydt avatar stiff avatar

Watchers

James Cloos avatar avatar

Recommend Projects

  • React photo React

    A declarative, efficient, and flexible JavaScript library for building user interfaces.

  • Vue.js photo Vue.js

    ๐Ÿ–– Vue.js is a progressive, incrementally-adoptable JavaScript framework for building UI on the web.

  • Typescript photo Typescript

    TypeScript is a superset of JavaScript that compiles to clean JavaScript output.

  • TensorFlow photo TensorFlow

    An Open Source Machine Learning Framework for Everyone

  • Django photo Django

    The Web framework for perfectionists with deadlines.

  • D3 photo D3

    Bring data to life with SVG, Canvas and HTML. ๐Ÿ“Š๐Ÿ“ˆ๐ŸŽ‰

Recommend Topics

  • javascript

    JavaScript (JS) is a lightweight interpreted programming language with first-class functions.

  • web

    Some thing interesting about web. New door for the world.

  • server

    A server is a program made to process requests and deliver data to clients.

  • Machine learning

    Machine learning is a way of modeling and interpreting data that allows a piece of software to respond intelligently.

  • Game

    Some thing interesting about game, make everyone happy.

Recommend Org

  • Facebook photo Facebook

    We are working to build community through open source technology. NB: members must have two-factor auth.

  • Microsoft photo Microsoft

    Open source projects and samples from Microsoft.

  • Google photo Google

    Google โค๏ธ Open Source for everyone.

  • D3 photo D3

    Data-Driven Documents codes.